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/*
* Intel X38 Memory Controller kernel module
* Copyright ( C ) 2008 Cluster Computing , Inc .
*
* This file may be distributed under the terms of the
* GNU General Public License .
*
* This file is based on i3200_edac . c
*
*/
# include <linux/module.h>
# include <linux/init.h>
# include <linux/pci.h>
# include <linux/pci_ids.h>
# include <linux/edac.h>
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# include <linux/io-64-nonatomic-lo-hi.h>
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# include "edac_module.h"
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# define EDAC_MOD_STR "x38_edac"
# define PCI_DEVICE_ID_INTEL_X38_HB 0x29e0
# define X38_RANKS 8
# define X38_RANKS_PER_CHANNEL 4
# define X38_CHANNELS 2
/* Intel X38 register addresses - device 0 function 0 - DRAM Controller */
# define X38_MCHBAR_LOW 0x48 /* MCH Memory Mapped Register BAR */
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# define X38_MCHBAR_HIGH 0x4c
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# define X38_MCHBAR_MASK 0xfffffc000ULL /* bits 35:14 */
# define X38_MMR_WINDOW_SIZE 16384
# define X38_TOM 0xa0 / * Top of Memory (16b)
*
* 15 : 10 reserved
* 9 : 0 total populated physical memory
*/
# define X38_TOM_MASK 0x3ff /* bits 9:0 */
# define X38_TOM_SHIFT 26 /* 64MiB grain */
# define X38_ERRSTS 0xc8 / * Error Status Register (16b)
*
* 15 reserved
* 14 Isochronous TBWRR Run Behind FIFO Full
* ( ITCV )
* 13 Isochronous TBWRR Run Behind FIFO Put
* ( ITSTV )
* 12 reserved
* 11 MCH Thermal Sensor Event
* for SMI / SCI / SERR ( GTSE )
* 10 reserved
* 9 LOCK to non - DRAM Memory Flag ( LCKF )
* 8 reserved
* 7 DRAM Throttle Flag ( DTF )
* 6 : 2 reserved
* 1 Multi - bit DRAM ECC Error Flag ( DMERR )
* 0 Single - bit DRAM ECC Error Flag ( DSERR )
*/
# define X38_ERRSTS_UE 0x0002
# define X38_ERRSTS_CE 0x0001
# define X38_ERRSTS_BITS (X38_ERRSTS_UE | X38_ERRSTS_CE)
/* Intel MMIO register space - device 0 function 0 - MMR space */
# define X38_C0DRB 0x200 / * Channel 0 DRAM Rank Boundary (16b x 4)
*
* 15 : 10 reserved
* 9 : 0 Channel 0 DRAM Rank Boundary Address
*/
# define X38_C1DRB 0x600 /* Channel 1 DRAM Rank Boundary (16b x 4) */
# define X38_DRB_MASK 0x3ff /* bits 9:0 */
# define X38_DRB_SHIFT 26 /* 64MiB grain */
# define X38_C0ECCERRLOG 0x280 / * Channel 0 ECC Error Log (64b)
*
* 63 : 48 Error Column Address ( ERRCOL )
* 47 : 32 Error Row Address ( ERRROW )
* 31 : 29 Error Bank Address ( ERRBANK )
* 28 : 27 Error Rank Address ( ERRRANK )
* 26 : 24 reserved
* 23 : 16 Error Syndrome ( ERRSYND )
* 15 : 2 reserved
* 1 Multiple Bit Error Status ( MERRSTS )
* 0 Correctable Error Status ( CERRSTS )
*/
# define X38_C1ECCERRLOG 0x680 /* Channel 1 ECC Error Log (64b) */
# define X38_ECCERRLOG_CE 0x1
# define X38_ECCERRLOG_UE 0x2
# define X38_ECCERRLOG_RANK_BITS 0x18000000
# define X38_ECCERRLOG_SYNDROME_BITS 0xff0000
# define X38_CAPID0 0xe0 /* see P.94 of spec for details */
static int x38_channel_num ;
static int how_many_channel ( struct pci_dev * pdev )
{
unsigned char capid0_8b ; /* 8th byte of CAPID0 */
pci_read_config_byte ( pdev , X38_CAPID0 + 8 , & capid0_8b ) ;
if ( capid0_8b & 0x20 ) { /* check DCD: Dual Channel Disable */
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edac_dbg ( 0 , " In single channel mode \n " ) ;
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x38_channel_num = 1 ;
} else {
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edac_dbg ( 0 , " In dual channel mode \n " ) ;
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x38_channel_num = 2 ;
}
return x38_channel_num ;
}
static unsigned long eccerrlog_syndrome ( u64 log )
{
return ( log & X38_ECCERRLOG_SYNDROME_BITS ) > > 16 ;
}
static int eccerrlog_row ( int channel , u64 log )
{
return ( ( log & X38_ECCERRLOG_RANK_BITS ) > > 27 ) |
( channel * X38_RANKS_PER_CHANNEL ) ;
}
enum x38_chips {
X38 = 0 ,
} ;
struct x38_dev_info {
const char * ctl_name ;
} ;
struct x38_error_info {
u16 errsts ;
u16 errsts2 ;
u64 eccerrlog [ X38_CHANNELS ] ;
} ;
static const struct x38_dev_info x38_devs [ ] = {
[ X38 ] = {
. ctl_name = " x38 " } ,
} ;
static struct pci_dev * mci_pdev ;
static int x38_registered = 1 ;
static void x38_clear_error_info ( struct mem_ctl_info * mci )
{
struct pci_dev * pdev ;
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pdev = to_pci_dev ( mci - > pdev ) ;
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/*
* Clear any error bits .
* ( Yes , we really clear bits by writing 1 to them . )
*/
pci_write_bits16 ( pdev , X38_ERRSTS , X38_ERRSTS_BITS ,
X38_ERRSTS_BITS ) ;
}
static void x38_get_and_clear_error_info ( struct mem_ctl_info * mci ,
struct x38_error_info * info )
{
struct pci_dev * pdev ;
void __iomem * window = mci - > pvt_info ;
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pdev = to_pci_dev ( mci - > pdev ) ;
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/*
* This is a mess because there is no atomic way to read all the
* registers at once and the registers can transition from CE being
* overwritten by UE .
*/
pci_read_config_word ( pdev , X38_ERRSTS , & info - > errsts ) ;
if ( ! ( info - > errsts & X38_ERRSTS_BITS ) )
return ;
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info - > eccerrlog [ 0 ] = lo_hi_readq ( window + X38_C0ECCERRLOG ) ;
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if ( x38_channel_num = = 2 )
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info - > eccerrlog [ 1 ] = lo_hi_readq ( window + X38_C1ECCERRLOG ) ;
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pci_read_config_word ( pdev , X38_ERRSTS , & info - > errsts2 ) ;
/*
* If the error is the same for both reads then the first set
* of reads is valid . If there is a change then there is a CE
* with no info and the second set of reads is valid and
* should be UE info .
*/
if ( ( info - > errsts ^ info - > errsts2 ) & X38_ERRSTS_BITS ) {
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info - > eccerrlog [ 0 ] = lo_hi_readq ( window + X38_C0ECCERRLOG ) ;
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if ( x38_channel_num = = 2 )
info - > eccerrlog [ 1 ] =
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lo_hi_readq ( window + X38_C1ECCERRLOG ) ;
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}
x38_clear_error_info ( mci ) ;
}
static void x38_process_error_info ( struct mem_ctl_info * mci ,
struct x38_error_info * info )
{
int channel ;
u64 log ;
if ( ! ( info - > errsts & X38_ERRSTS_BITS ) )
return ;
if ( ( info - > errsts ^ info - > errsts2 ) & X38_ERRSTS_BITS ) {
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edac_mc_handle_error ( HW_EVENT_ERR_UNCORRECTED , mci , 1 , 0 , 0 , 0 ,
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- 1 , - 1 , - 1 ,
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" UE overwrote CE " , " " ) ;
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info - > errsts = info - > errsts2 ;
}
for ( channel = 0 ; channel < x38_channel_num ; channel + + ) {
log = info - > eccerrlog [ channel ] ;
if ( log & X38_ECCERRLOG_UE ) {
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edac_mc_handle_error ( HW_EVENT_ERR_UNCORRECTED , mci , 1 ,
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0 , 0 , 0 ,
eccerrlog_row ( channel , log ) ,
- 1 , - 1 ,
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" x38 UE " , " " ) ;
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} else if ( log & X38_ECCERRLOG_CE ) {
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edac_mc_handle_error ( HW_EVENT_ERR_CORRECTED , mci , 1 ,
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0 , 0 , eccerrlog_syndrome ( log ) ,
eccerrlog_row ( channel , log ) ,
- 1 , - 1 ,
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" x38 CE " , " " ) ;
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}
}
}
static void x38_check ( struct mem_ctl_info * mci )
{
struct x38_error_info info ;
x38_get_and_clear_error_info ( mci , & info ) ;
x38_process_error_info ( mci , & info ) ;
}
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static void __iomem * x38_map_mchbar ( struct pci_dev * pdev )
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{
union {
u64 mchbar ;
struct {
u32 mchbar_low ;
u32 mchbar_high ;
} ;
} u ;
void __iomem * window ;
pci_read_config_dword ( pdev , X38_MCHBAR_LOW , & u . mchbar_low ) ;
pci_write_config_dword ( pdev , X38_MCHBAR_LOW , u . mchbar_low | 0x1 ) ;
pci_read_config_dword ( pdev , X38_MCHBAR_HIGH , & u . mchbar_high ) ;
u . mchbar & = X38_MCHBAR_MASK ;
if ( u . mchbar ! = ( resource_size_t ) u . mchbar ) {
printk ( KERN_ERR
" x38: mmio space beyond accessible range (0x%llx) \n " ,
( unsigned long long ) u . mchbar ) ;
return NULL ;
}
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window = ioremap ( u . mchbar , X38_MMR_WINDOW_SIZE ) ;
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if ( ! window )
printk ( KERN_ERR " x38: cannot map mmio space at 0x%llx \n " ,
( unsigned long long ) u . mchbar ) ;
return window ;
}
static void x38_get_drbs ( void __iomem * window ,
u16 drbs [ X38_CHANNELS ] [ X38_RANKS_PER_CHANNEL ] )
{
int i ;
for ( i = 0 ; i < X38_RANKS_PER_CHANNEL ; i + + ) {
drbs [ 0 ] [ i ] = readw ( window + X38_C0DRB + 2 * i ) & X38_DRB_MASK ;
drbs [ 1 ] [ i ] = readw ( window + X38_C1DRB + 2 * i ) & X38_DRB_MASK ;
}
}
static bool x38_is_stacked ( struct pci_dev * pdev ,
u16 drbs [ X38_CHANNELS ] [ X38_RANKS_PER_CHANNEL ] )
{
u16 tom ;
pci_read_config_word ( pdev , X38_TOM , & tom ) ;
tom & = X38_TOM_MASK ;
return drbs [ X38_CHANNELS - 1 ] [ X38_RANKS_PER_CHANNEL - 1 ] = = tom ;
}
static unsigned long drb_to_nr_pages (
u16 drbs [ X38_CHANNELS ] [ X38_RANKS_PER_CHANNEL ] ,
bool stacked , int channel , int rank )
{
int n ;
n = drbs [ channel ] [ rank ] ;
if ( rank > 0 )
n - = drbs [ channel ] [ rank - 1 ] ;
if ( stacked & & ( channel = = 1 ) & & drbs [ channel ] [ rank ] = =
drbs [ channel ] [ X38_RANKS_PER_CHANNEL - 1 ] ) {
n - = drbs [ 0 ] [ X38_RANKS_PER_CHANNEL - 1 ] ;
}
n < < = ( X38_DRB_SHIFT - PAGE_SHIFT ) ;
return n ;
}
static int x38_probe1 ( struct pci_dev * pdev , int dev_idx )
{
int rc ;
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int i , j ;
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struct mem_ctl_info * mci = NULL ;
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struct edac_mc_layer layers [ 2 ] ;
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u16 drbs [ X38_CHANNELS ] [ X38_RANKS_PER_CHANNEL ] ;
bool stacked ;
void __iomem * window ;
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edac_dbg ( 0 , " MC: \n " ) ;
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window = x38_map_mchbar ( pdev ) ;
if ( ! window )
return - ENODEV ;
x38_get_drbs ( window , drbs ) ;
how_many_channel ( pdev ) ;
/* FIXME: unconventional pvt_info usage */
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layers [ 0 ] . type = EDAC_MC_LAYER_CHIP_SELECT ;
layers [ 0 ] . size = X38_RANKS ;
layers [ 0 ] . is_virt_csrow = true ;
layers [ 1 ] . type = EDAC_MC_LAYER_CHANNEL ;
layers [ 1 ] . size = x38_channel_num ;
layers [ 1 ] . is_virt_csrow = false ;
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mci = edac_mc_alloc ( 0 , ARRAY_SIZE ( layers ) , layers , 0 ) ;
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if ( ! mci )
return - ENOMEM ;
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edac_dbg ( 3 , " MC: init mci \n " ) ;
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mci - > pdev = & pdev - > dev ;
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mci - > mtype_cap = MEM_FLAG_DDR2 ;
mci - > edac_ctl_cap = EDAC_FLAG_SECDED ;
mci - > edac_cap = EDAC_FLAG_SECDED ;
mci - > mod_name = EDAC_MOD_STR ;
mci - > ctl_name = x38_devs [ dev_idx ] . ctl_name ;
mci - > dev_name = pci_name ( pdev ) ;
mci - > edac_check = x38_check ;
mci - > ctl_page_to_phys = NULL ;
mci - > pvt_info = window ;
stacked = x38_is_stacked ( pdev , drbs ) ;
/*
* The dram rank boundary ( DRB ) reg values are boundary addresses
* for each DRAM rank with a granularity of 64 MB . DRB regs are
* cumulative ; the last one will contain the total memory
* contained in all ranks .
*/
for ( i = 0 ; i < mci - > nr_csrows ; i + + ) {
unsigned long nr_pages ;
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struct csrow_info * csrow = mci - > csrows [ i ] ;
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nr_pages = drb_to_nr_pages ( drbs , stacked ,
i / X38_RANKS_PER_CHANNEL ,
i % X38_RANKS_PER_CHANNEL ) ;
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if ( nr_pages = = 0 )
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continue ;
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for ( j = 0 ; j < x38_channel_num ; j + + ) {
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struct dimm_info * dimm = csrow - > channels [ j ] - > dimm ;
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dimm - > nr_pages = nr_pages / x38_channel_num ;
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dimm - > grain = nr_pages < < PAGE_SHIFT ;
dimm - > mtype = MEM_DDR2 ;
dimm - > dtype = DEV_UNKNOWN ;
dimm - > edac_mode = EDAC_UNKNOWN ;
}
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}
x38_clear_error_info ( mci ) ;
rc = - ENODEV ;
if ( edac_mc_add_mc ( mci ) ) {
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edac_dbg ( 3 , " MC: failed edac_mc_add_mc() \n " ) ;
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goto fail ;
}
/* get this far and it's successful */
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edac_dbg ( 3 , " MC: success \n " ) ;
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return 0 ;
fail :
iounmap ( window ) ;
if ( mci )
edac_mc_free ( mci ) ;
return rc ;
}
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static int x38_init_one ( struct pci_dev * pdev , const struct pci_device_id * ent )
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{
int rc ;
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edac_dbg ( 0 , " MC: \n " ) ;
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if ( pci_enable_device ( pdev ) < 0 )
return - EIO ;
rc = x38_probe1 ( pdev , ent - > driver_data ) ;
if ( ! mci_pdev )
mci_pdev = pci_dev_get ( pdev ) ;
return rc ;
}
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static void x38_remove_one ( struct pci_dev * pdev )
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{
struct mem_ctl_info * mci ;
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edac_dbg ( 0 , " \n " ) ;
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mci = edac_mc_del_mc ( & pdev - > dev ) ;
if ( ! mci )
return ;
iounmap ( mci - > pvt_info ) ;
edac_mc_free ( mci ) ;
}
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static const struct pci_device_id x38_pci_tbl [ ] = {
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{
PCI_VEND_DEV ( INTEL , X38_HB ) , PCI_ANY_ID , PCI_ANY_ID , 0 , 0 ,
X38 } ,
{
0 ,
} /* 0 terminated list. */
} ;
MODULE_DEVICE_TABLE ( pci , x38_pci_tbl ) ;
static struct pci_driver x38_driver = {
. name = EDAC_MOD_STR ,
. probe = x38_init_one ,
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. remove = x38_remove_one ,
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. id_table = x38_pci_tbl ,
} ;
static int __init x38_init ( void )
{
int pci_rc ;
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edac_dbg ( 3 , " MC: \n " ) ;
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/* Ensure that the OPSTATE is set correctly for POLL or NMI */
opstate_init ( ) ;
pci_rc = pci_register_driver ( & x38_driver ) ;
if ( pci_rc < 0 )
goto fail0 ;
if ( ! mci_pdev ) {
x38_registered = 0 ;
mci_pdev = pci_get_device ( PCI_VENDOR_ID_INTEL ,
PCI_DEVICE_ID_INTEL_X38_HB , NULL ) ;
if ( ! mci_pdev ) {
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edac_dbg ( 0 , " x38 pci_get_device fail \n " ) ;
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pci_rc = - ENODEV ;
goto fail1 ;
}
pci_rc = x38_init_one ( mci_pdev , x38_pci_tbl ) ;
if ( pci_rc < 0 ) {
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edac_dbg ( 0 , " x38 init fail \n " ) ;
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pci_rc = - ENODEV ;
goto fail1 ;
}
}
return 0 ;
fail1 :
pci_unregister_driver ( & x38_driver ) ;
fail0 :
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pci_dev_put ( mci_pdev ) ;
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return pci_rc ;
}
static void __exit x38_exit ( void )
{
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edac_dbg ( 3 , " MC: \n " ) ;
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pci_unregister_driver ( & x38_driver ) ;
if ( ! x38_registered ) {
x38_remove_one ( mci_pdev ) ;
pci_dev_put ( mci_pdev ) ;
}
}
module_init ( x38_init ) ;
module_exit ( x38_exit ) ;
MODULE_LICENSE ( " GPL " ) ;
MODULE_AUTHOR ( " Cluster Computing, Inc. Hitoshi Mitake " ) ;
MODULE_DESCRIPTION ( " MC support for Intel X38 memory hub controllers " ) ;
module_param ( edac_op_state , int , 0444 ) ;
MODULE_PARM_DESC ( edac_op_state , " EDAC Error Reporting state: 0=Poll,1=NMI " ) ;